Meta-Heuristic Technique-Based Parametric Optimization for Electrochemical Machining of Monel 400 Alloys to Investigate the Material Removal Rate and the Sludge

Nagarajan, Vengatajalapathi; Ayyappan, S.; Kumar, M. Siva; Nagarajan, Lenin; Salunkhe, Sachin; Nasr, Emad Abouel; Shanmugam, Ragavanantham; Hussein, H.M.A.

doi:10.3390/app12062793

Cited by 18 publications

(10 citation statements)

References 44 publications

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“…Quantum chromodynamics (QCD) is the fundamental quantum field theory describing the strong interaction and one of the most active research topics in physics today [2,9] [3,1]. An important part of the study of the strong interaction based on QCD is computer-aided calculations on discretized space-time lattices [4,[218][219].…”

Section: Motivationmentioning

confidence: 99%

“…Parametric optimization is the process of searching for an optimal set of input parameters to an application-specific cost function, such that its output value is minimal. Parametric optimization problems are often encountered in physics [7] [8,[115][116], chemistry [9], medicine [10] [11,70], engineering [12,[419][420] [13,131] [14,12370] and economics [15].…”

Section: Introductionmentioning

confidence: 99%

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Parametric Optimization on HPC Clusters with Geneva

Weßner

Berlich²,

Schwarz

et al. 2023

Preprint

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Many challenges of today's science are parametric optimization problems that are extremely complex and computationally intensive to calculate. At the same time, the hardware for high-performance computing is becoming increasingly powerful. Geneva is a framework for parallel optimization of large-scale problems with highly nonlinear quality surfaces in grid and cloud environments. To harness the immense computing power of high-performance computing clusters, we have developed a new networking component for Geneva, the so-called MPI Consumer, which makes Geneva suitable for HPC. Geneva is most prominent for its evolutionary algorithm, which requires repeatedly evaluating a user-defined cost function. The MPI Consumer parallelizes the computation of the candidate solutions' cost functions by sending them to remote cluster nodes. By using an advanced multithreading mechanism on the master node and by using asynchronous requests on the worker nodes, the MPI Consumer is highly scalable. Additionally, it provides fault tolerance, which is usually not the case for MPI programs but becomes increasingly important for HPC. Moreover, the MPI Consumer provides a framework for the intuitive implementation of fine-grained parallelization of the cost function. Since the MPI Consumer conforms to the standard paradigm of HPC programs, it vastly improves Geneva's user-friendliness on HPC clusters. This article gives insight into Geneva's general system architecture and the system design of the MPI Consumer as well as the underlying concepts. Geneva, including the novel MPI Consumer, is publicly available as an open source project on GitHub and is currently used for fundamental physics research at GSI in Darmstadt, Germany.

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Section: Motivationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Parametric Optimization on HPC Clusters with Geneva

Weßner

Berlich²,

Schwarz

et al. 2023

Preprint

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show abstract

“…The optimal alternative is most similar to the ideal solution and most dissimilar to the ideal solution. The TOPSIS method [18] can be constructed by following the steps given below:…”

Section: Technique For Order Of Preference By Similarity To Ideal Sol...mentioning

confidence: 99%

Parametric Optimization of Two Point Incremental Forming Using GRA and TOPSIS

Visagan¹,

Ganesh²

2022

Int. j. simul. model.

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Different innovative forming methods have been developed in order to make custom made goods at a reasonable cost. Due to stress induced between the tool and die, the procedure facilitates the ability of metal sheets to be formed. The dimensional accuracy of formed items can be improved by selecting the best Two Point Incremental Forming (TPIF) process parameters. In this work, TPIF of SS316L sheets of 0.8 mm was performed by varying the process variables such as die angle, step of forming, rate of feed and tool rotational speed to form a double wall angle circular cone with a forming height of 40 mm. The output responses such as surface roughness and thickness of the formed components were measured. An ANOVA was performed with a confidence level of 95 % to identify the most influential process parameter on the output response. The accuracy of the proposed methods, Grey Relational Analysis (GRA) and TOPSIS, were validated by choosing the optimal process parameter combination resulted from several experimental trial runs.

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“…The first paper of the second group of articles is titled "Meta-heuristic technique-based parametric optimization for electrochemical machining of Monel 400 alloys to investigate the material removal rate and the sludge" [13]. The authors investigate in this work the predominant electrochemical machining process parameters, namely applied voltage, flow rate, and electrolyte concentration, and their effects on the performance measures, i.e., the material removal rate and the nickel presence.…”

Section: Description Of the Papersmentioning

confidence: 99%